Ultrasonic Gun & Case Cleaner Ultrasonic Heating Bath Industrial 70L

Product Details

Ultrasonic Gun & Case Cleaner Ultrasonic Heating Bath
Industrial 70L

UltrasonicGun Rifle Machine Power MeasureMent –Foil Test

The most reliable measurement device for cavitation is a simple
foil test. To perform the test, a piece of aluminum foil is placed
vertically in the cleaning bath down to the bottom of the tank
spanning opposite corners. Typical immersion time for the foil is 1
min in the bath. Upon inspection of the foil, a pattern of
indentations, and possibly holes (depending on the foil thickness,
frequency and power density) should occur. In a properly designed
ultrasonic tank, the pattern on the foil should be uniform and
cover the entire area. This shows that even cavitation is
occurring, and, therefore, cleaning should be even and consistent.
If the pattern is inconsistent and there are dead zones, then
inconsistent cleaning can occur.

Poor foil tests can occur for a variety of reasons: lack of
generator frequency sweep; improperly matched ultrasonic generator
to transducer load; piezoelectric transducers that have degraded or
disbonded; lack of ultrasonic power for a given tank volume; poor
transducer layout; or inability of the cleaning solution to
properly degas and cavitate

Product Description

Ultrasonic Gun Cleaner is A Shooter’s Best Preferred Choice

Ultrasonic weapon cleaners like Hornady, Lyman, iSonic, RCBS and
many more are used from decades and is the best choice for every
shooter today.

These devices used to be expensive and only professionals can
afford to buy them. However with changing technology, these are
built inexpensive and can be purchased easily using online stores
like Amazon.

The main reason to use ultrasonic handgun cleaners is that, the
weapon attracts lots of moisture due to overtime usage and begins
to deteriorate slowly. Cleaning its exterior as well as interior
parts will help to restore it back in good stage making it smoother
for shooting.

Anultrasonic weapon cleanerworks with powerful high frequency sound waves and is obviously a
great way to clean all your weapon parts. Even the place where the
gun cleaning brush can not reach easily, can be easily cleared by
ultrasonic process.

The cavitation inside the cleaning device makes use of the cleaning
solution to brush up the stubborn dirt, carbon and oil residues
completely. It also wipes off all the left traces of moisture which
may be accumulated on the gun.

Ultrasonic cleaning is a fast and highly efficient way for cleaning
complex gun components and instruments used in the defence sector.
Ultrawave has supplied a range of ultrasonic cleaning systems to
the Ministry Of Defence for cleaning a wide range of parts and
components in vehicles and machinery. Our ultrasonic cleans are
also used by the armed and police forces, as well as private
companies for cleaning and servicing of weapons and munitions.

Contrary to popular belief, cavitation is the force behind
ultrasonic cleaning. It is not the sound waves that scrub the part
clean – it is the cavitation process set up by the sound waves that
scrub the part clean.

During cavitation, micron-size bubbles form and grow due to the
alternating positive and negative pressure waves in a solution. The
bubbles subjected to these alternating pressure waves continue to
grow until they reach resonant size. Just prior to the bubble
implosion, there is a tremendous amount of energy stored inside the
bubble.

Temperatures inside a cavitating bubble can reach 9,900F with
pressures up to 500 atm. The implosion event, when it occurs near a
hard surface, changes the bubble into a jet one-tenth the bubble
size, which travels at speeds up to 400 km/hr toward the hard
surface. With the combination of pressure, temperature and
velocity, the jet frees contaminants from their bonds with the
substrate. Because of the inherently small size of the jet and the
relatively large energy, ultrasonic cleaning has the ability to
reach into small crevices and remove entrapped soils effectively.

Absolutely. While detergents aid in the formation of the bubble,
cavitation is still very effective in plain water or demineralized
water. Where there is cavitation there can still be cleaning.

Q - Are there rules for racking parts- material, coating, or part
orientation?

Yes. Never put the parts on the bottom of an ultrasonic tank. You
will prevent the correct movement of the diaphragm and interfere
with the creation of ultrasonic energy. You can also subject the
parts to damage. Parts should be racked in a basket or work holder
designed to handle your specific part. This is very important in
high end cleaning systems where you want the cleanest part
possible. You should always use a stainless steel basket, as softer
materials will absorb the ultrasonic energy. Never use plastic or
other soft materials. If your part is easily damaged or scratched,
stainless steel racks with Nylobond or Teflon coatings are
available. Parts should be arranged in a single layer, this gives
the cleaning fluid an opportunity to circulate and remove
particulate from the immediate area of the part. When removing the
parts from the cleaning solution a single layer prevents the upper
parts from shedding particles on the lower parts. Never put the
parts on the bottom of an ultrasonic tank. This is like putting
your thumb on a speaker diaphragm in a radio. You will prevent the
correct movement of the diaphragm [bottom or side of the
tank and interfere with the creation of ultrasonic energy.